RU2015255C1 - Working member of dragline excavator - Google Patents

Abstract

FIELD: earth-moving machinery. SUBSTANCE: working member has bucket with side walls, bottom, arch, cutting edge, gate and harness. Gate is articulated with its upper part to arch and installed in bucket hollow for touching with its bottom and side walls. Harness consists of dumping rope, dumping unit with holder and flexible link. Flexible link with its one end is connected to gate inner side, and with other end, to holder of dumping unit and located below dumping rope. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to earthmoving, construction and mining machinery, and in particular to the working equipment of dragline excavators.

 Known working body of the dragline excavator, including a bucket with a damper pivotally connected to the front parts of the side walls and a harness containing an unloading rope with upper and lower branches, while the axis of rotation of the damper is located in its middle part, the upper part of the damper is connected to the lower branch of the unloading the rope by means of a sliding support, and the center of gravity of the damper is located in its upper part (ed. St. USSR N 1270227, class E 02 F 3/48, 1986).

 The disadvantage of this design is the presence of large soil losses during transportation for unloading due to the fact that the damper in the upper part is heavier, connected to the lower branch of the discharge rope and the center of gravity is located above the axis of the hinge, which does not provide a tight closure of the damper, as a result of which slightly opening it during transportation and soil loss.

 Closest to the proposed technical essence is the working body of the dragline excavator, including a bucket with an arch, a cutting edge, pivotally attached to the bucket and a damper located in front of its cutting edge, while the damper is connected by means of a flexible rod with a lifting rope (ed. St. USSR N 933883, CL E 02 F 3/48, 1982).

 The disadvantage of this design is the large loss of soil during transportation, since the location of the shutter in front of the cutting edge does not provide tight contact at the junction of the shutter with the cutting edge and the side walls of the bucket. In addition, the location of the flexible rod connecting the shutter with the lifting rope between the upper and lower branches of the discharge rope leads to a disruption in the kinematic connection of the bucket with the harness (tangling of the ropes), which affects the process of opening and closing the shutter.

 The aim of the invention is the tight fit of the flap to the bucket along its perimeter and its operation regardless of the kinematic connection of the bucket, which significantly reduces soil loss during transportation.

 This is achieved by the fact that in the working body of the dragline excavator, including a bucket with side walls, a bottom, an arch and a cutting edge and a pivotally attached damper, a harness containing an unloading rope, an unloading block with a clip and flexible traction connected at one end to the damper, the damper attached by the upper part to the arch and installed in the bucket cavity with the possibility of contact with its bottom and side walls, and the flexible rod is connected at one end to the inside of the flap, the other - to the clip of the unloading unit and is located and below the discharge rope.

The essence of the invention lies in the fact that the suspension of the flap to the arch and its installation in the bucket cavity with the possibility of contact with the bottom and side walls makes close use of the hydrostatic pressure of the developed soil located in the bucket to close the flap and close the outlet of the bucket. Flexible traction connecting the inner side of the flap with the clip of the unloading unit and in a weakened state during operation and transportation of the bucket does not affect the operation of the bucket and opens the flap above the discharge point. The length of the flexible rod (l _t ) corresponds to the condition for opening the damper when unloading the bucket (Fig. 1). For this it is necessary that
l _t + L ≅ S + l _p , where l _t is the length of the flexible rod;
L is the length of the flap from the point of attachment to the arch to the point of contact with the bottom;
S is the distance from the attachment point of the valve to the attachment point of the lifting chains;
l _p - the distance from the axis of the unloading unit to the point of attachment of the lifting chains to the side walls of the bucket.

 The location of the flexible rod below the unloading rope ensures the autonomy of the shutter from the kinematic connection of the bucket with the harness, i.e. does not affect the bucket’s workflow when digging, transporting, and unloading.

 The proposed set of features ensures the operation of the valve as a valve, i.e. the damper acts as a valve and helps to reduce soil loss during transportation.

 The invention is new because it is not known from the prior art, has an inventive level, because it does not explicitly follow from the prior art for a specialist, and is industrially applicable, because it can be used in industry and other sectors of the national economy.

 Figure 1 shows a diagram for calculating the length of flexible traction; figure 2 - the working body of the excavator dragline; figure 3 - the same, with a) open damper, b) closed damper; figure 4 is the same when unloading.

 The working body of the dragline excavator (figure 2) includes a bucket 1 with an arch 2 and a cutting edge 3, a flap 4, pivotally attached with the upper part to the arch 2, and a flexible rod 5. The damper is installed inside the bucket 1 behind the cutting edge 3 and connected to the inner side with a clip 6 of the unloading unit with a flexible rod 5. The shape of the shutter 4 copies the inner cavity of the bucket around the perimeter and is equipped with an elastic seal installed around the perimeter of the shutter-valve for a snug fit to the bucket in places of their interface with the bottom and side walls of the bucket. Flexible rod 5 is located below the unloading rope 7 and has the length required to open the damper-valve during unloading. The damper-valve 4, depending on the soil being developed, can be either continuous or perforated to drain the water.

 The working body works as follows.

 For pulp development, i.e. eroded rock with water, bucket 1 is lowered into the face. When lowering the bucket into the soil mixture with water and beginning to drag it to the excavator by means of traction under the influence of medium resistance in front of the bucket, the damper-valve 4 opens, allowing the mixture to fill the capacity of the bucket 1, the flexible rod 5 is in a weakened state (Fig. 3, and). After filling the bucket 1 when it is separated from the bottom, the flap-valve 4 closes under the action of its own weight and hydrostatic pressure of the medium inside the bucket, ensuring the preservation of the pulp volume in the bucket during transportation for unloading (Fig. 3, b).

 When installing the bucket above the unloading point, the traction rope loosens, the bucket 1 capsizes. In this case, the flexible rod 5, attached at one end to the holder 6 of the discharge block, and the other to the inner side of the damper 4, raises it, allowing you to empty the bucket 1 (figure 4).

 To develop rocks from under the water, the shutter 4 is perforated with holes for draining the water. Work is done in the same way.

 The proposed design of the working body of the dragline excavator allows the development of soils from under water, to develop pulp without the use of this special equipment, and to increase machine productivity by reducing downtime caused by the preparation of the face for development. In addition, this design can be used to develop gold sands in quarries and deliver it to the unloading place with minimal losses.

 Compared with a dragline excavator equipped with a traditional working body, this design reduces soil loss by 1.6-1.8 times and increases the productivity of the machine by 1.1-1.3 times.

Claims (1)

 EXCAVATOR-DRAGLINE WORKING BODY, including a bucket with side walls, a bottom, an arch, a cutting edge and a damper pivotally attached to the bucket, and a harness containing an unloading rope, an unloading block with a clip and a flexible rod, one end connected to the damper, characterized in that attached to the arch by the upper part and installed in the bucket cavity with the possibility of contact with its bottom and side walls, a flexible rod is connected at one end to the inside of the damper and the other to the holder of the unloading unit and is located below the unloading rope.

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